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A drilling-fluid additive used primarily for fluid-loss control, manufactured by reacting natural cellulose with monochloroacetic acid and sodium hydroxide [NaOH] to form CMC sodium salt. Up to 20 wt% of CMC may be NaCl, a by-product of manufacture, but purified grades of CMC contain only small amounts of NaCl. To make CMC, OH groups on the glucose rings of cellulose are ether-linked to carboxymethyl (-OCH2-COO–) groups. (Note the negative charge.) Each glucose ring has three OH groups capable of reaction, degree-of-substitution = 3. Degree of substitution determines water solubility and negativity of the polymer, which influences a CMC's effectiveness as a mud additive. Drilling grade CMCs used in muds typically have degree-of-substitution around 0.80 to 0.96. Carboxymethylcellulose is commonly supplied either as low-viscosity ("CMC-Lo Vis") or high-viscosity ("CMC-Hi Vis") grades, both of which have API specifications. The viscosity depends largely on the molecular weight of the starting cellulose material.
Reference: Hughes TL, Jones TG, and Houwen OW: "The Chemical Characterization of CMC and Its Relationship to Drilling-Mud Rheology and Fluid Loss," SPE Drilling & Completion 8, no. 3 (September 1993): 157-164.
See: bentonite, calcium carbonate, carboxymethyl starch, carboxymethyl hydroxyethylcellulose, cellulosic polymer, emulsion mud, gyp mud, hydroxyethylcellulose, lime mud, polyanionic cellulose, potassium mud, seawater mud